Videos

Produce designs with analog/mixed signals faster and easier while ensuring design intent, circuit performance, and reliability. In this session, we’ll explore an amplifier circuit with a thermal protection element, then show how the PADS AMS simulation and analysis environment and powerful waveform analyzer can be used for behavioral verification, scenario, and component optimization.

PADS Professional is drawing a lot of interest for its ability to handle high-speed constraints, complex advanced routing, 3D, and RF. But what does that really mean? This 25-minute webinar shows you exactly what’s inside PADS Professional and why it’s the tool of choice for engineers and small teams who need efficient design of complex PCBs.

Ensuring ICs get the power they require is a challenge. One misstep and you’ll reduce board reliability and cause board failure. To prevent noise induction between multiple power sources, it’s critical that split planes be defined correctly.

In this webinar demonstration, we’ll show you how to create split planes in PADS and how to analyze them with PADS HyperLynx DC Drop to quickly identify voltage drop and current density problems for all the voltage rails on your PCB.

Thousands of companies are shortening their design cycles and increasing productivity by frontloading CFD – a practice where CFD is conducted early during the design process. In order to implement it successfully, you must use tools which integrate effortlessly into your current design process. Watch this video for more tips on how to frontload CFD successfully within your organization.

Frontloading CFD refers to the practice of utilizing CFD simulation to optimize a proposed design during the early stages of the design process – when it is easier and less expensive to do so. And now with the award-winning FloEFD, implementing it is faster, easier and more affordable. Due to its powerful, unique and market-tested technology, FloEFD can reduce your overall simulation time by as much as 65-75 percent; thus, helping you optimize product performance and reliability, reduce physical prototyping, and development costs within engineering timescales. Watch this 4 minute video to learn how.

In this presentation, we will give you an overview of the how and why of thermal simulation of electronics. We will also give a brief history of how it all started.

Electronic Components and Systems Designers struggling with the thermal design of their products will benefit from this event which will show how the use of Computational Fluid Dynamics (CFD) can improve the efficiency and reliability of their designs and reduce the need for costly prototyping.